Cumulants and large deviations of the current through non-equilibrium steady states

Thierry Bodineau; Bernard Derrida

doi:10.1016/j.crhy.2007.04.014

Cumulants and large deviations of the current through non-equilibrium steady states

Thierry Bodineau
, Bernard Derrida

École Polytechnique

PSL research University & IPSL

Research output: Contribution to journal › Short survey › peer-review

Abstract

Using a generalisation of detailed balance for systems maintained out of equilibrium by contact with 2 reservoirs at unequal temperatures or at unequal densities, one can recover the fluctuation theorem for the large deviation function of the current. For large diffusive systems, we show how the large deviation function of the current can be computed using a simple additivity principle. The validity of this additivity principle and the occurrence of phase transitions are discussed in the framework of the macroscopic fluctuation theory. To cite this article: T. Bodineau, B. Derrida, C. R. Physique 8 (2007).

Original language	English
Pages (from-to)	540-555
Number of pages	16
Journal	Comptes Rendus Physique
Volume	8
Issue number	5-6
DOIs	https://doi.org/10.1016/j.crhy.2007.04.014
Publication status	Published - 1 Jan 2007

Keywords

Current fluctuations
Generalized detailed balance
Non-equilibrium steady state

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10.1016/j.crhy.2007.04.014

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abstract = "Using a generalisation of detailed balance for systems maintained out of equilibrium by contact with 2 reservoirs at unequal temperatures or at unequal densities, one can recover the fluctuation theorem for the large deviation function of the current. For large diffusive systems, we show how the large deviation function of the current can be computed using a simple additivity principle. The validity of this additivity principle and the occurrence of phase transitions are discussed in the framework of the macroscopic fluctuation theory. To cite this article: T. Bodineau, B. Derrida, C. R. Physique 8 (2007).",

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AU - Bodineau, Thierry

AU - Derrida, Bernard

PY - 2007/1/1

Y1 - 2007/1/1

N2 - Using a generalisation of detailed balance for systems maintained out of equilibrium by contact with 2 reservoirs at unequal temperatures or at unequal densities, one can recover the fluctuation theorem for the large deviation function of the current. For large diffusive systems, we show how the large deviation function of the current can be computed using a simple additivity principle. The validity of this additivity principle and the occurrence of phase transitions are discussed in the framework of the macroscopic fluctuation theory. To cite this article: T. Bodineau, B. Derrida, C. R. Physique 8 (2007).

AB - Using a generalisation of detailed balance for systems maintained out of equilibrium by contact with 2 reservoirs at unequal temperatures or at unequal densities, one can recover the fluctuation theorem for the large deviation function of the current. For large diffusive systems, we show how the large deviation function of the current can be computed using a simple additivity principle. The validity of this additivity principle and the occurrence of phase transitions are discussed in the framework of the macroscopic fluctuation theory. To cite this article: T. Bodineau, B. Derrida, C. R. Physique 8 (2007).

KW - Current fluctuations

KW - Generalized detailed balance

KW - Non-equilibrium steady state

UR - https://www.scopus.com/pages/publications/34447567393

U2 - 10.1016/j.crhy.2007.04.014

DO - 10.1016/j.crhy.2007.04.014

M3 - Short survey

AN - SCOPUS:34447567393

SN - 1631-0705

VL - 8

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JO - Comptes Rendus Physique

JF - Comptes Rendus Physique

IS - 5-6

ER -

Cumulants and large deviations of the current through non-equilibrium steady states

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Keywords

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